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Social class in asthma and allergic rhinitis: a national cohort study over three decades

L. Bråbäck, A. Hjern, F. Rasmussen
European Respiratory Journal 2005 26: 1064-1068; DOI: 10.1183/09031936.05.00022105
L. Bråbäck
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A. Hjern
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F. Rasmussen
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Abstract

The aim of this study was to assess whether the association with social class differed between allergic rhinitis and asthma and whether these associations have changed over time.

The Swedish Military Service Conscription Register was linked to two other national registers for 1,247,038 male conscripts in successive cohorts born between 1952 and 1977.

The percentage of asthma cases associated with allergic rhinitis was 15% in the oldest cohort and 44% in the youngest cohort. Low socio-economic status (SES) was associated with an increased risk (assessed as odds ratio) of asthma without allergic rhinitis (1.14, 95% confidence interval (CI) 1.11–1.17) but a slightly reduced risk of asthma with allergic rhinitis (0.96, 95% CI 0.93–1.00). The risk of allergic rhinitis was 0.84, 95% CI 0.82–0.85. A positive interaction between SES and year of birth occurred in all three conditions. Low SES was related to a reduced risk of asthma with allergic rhinitis in the earliest cohort (0.72, 95% CI 0.53–0.82) but a slightly increased risk in the most recent cohort (1.07, 95% CI 1.01–1.14).

In conclusion, the role of social class has changed over time. The steepest increase in asthma and allergic rhinitis occurred in conscripts with a low socio-economic status.

  • Asthma-allergic rhinitis
  • asthma epidemiology
  • birth cohort
  • socio-economic status
  • time trend

The increased prevalence of hay fever in the UK during the 19th century was linked to industrialisation and started in the affluent classes 1. The association between social advantage and hay fever remained in the 20th century 2 and was also demonstrated in studies based on objective tests 3–5. In particular, socio-economic status (SES) early in life appeared to be important. Low SES in early childhood provided protection from atopic sensitisation at the age of 33 yrs in a British birth cohort from 1958 5. High social class and educational level was a risk factor for atopy in Eastern Germany 4, although atopic diseases were more likely in the western, more affluent, part of Germany 6.

Low SES has been related to an increase in the severity of asthma but the association between social class and the occurrence of asthma is less clear 7, 8. Conflicting evidence regarding the relationship between social class and asthma could be related to geographical or temporal variations. Furthermore, inconsistent findings may arise from studies that do not distinguish between atopic and nonatopic asthma, since they are separate entities with at least partly different backgrounds 9. The rise in childhood asthma has comprised both atopic and nonatopic asthma. It has been argued that the role of atopy has been overemphasised, as <50% of all asthma is atopic 10.

Substantial changes in the standard of living have taken place in Sweden over the last 40–50 yrs. The current authors have previously demonstrated that the increase in asthma among young males in Sweden accelerated in cohorts born after 1960 11. In the current survey, the authors have investigated the prevalence of allergic rhinitis and asthma (with and without allergic rhinitis) in Swedish conscripts by year of birth and social class. It has been evaluated whether the association with social class differed between allergic rhinitis and asthma with and without allergic rhinitis and whether these associations have changed over three decades.

MATERIALS AND METHODS

Sweden has a long tradition of national registers with high-quality data relating to socio-economic and health indicators for the entire Swedish population. The key to these registers is the unique personal identification number for each Swedish citizen. In this study, the current authors used the Swedish Military Service Conscription Register (MSCR; 1968–1996), the Register of the Total Population (RTP; 1967–1996) and the Population and Housing Censuses (PHC; 1970, 1975, 1980, 1985, 1990). Statistics Sweden maintains the Multi-Generation Register with records of the unique personal identification (ID) numbers of the mothers and fathers of almost all the individuals born after 1932, who were alive and resident in Sweden in 1961. The parents of the study subjects were identified by record linkage to this register.

Study population

All Swedish-born males born between 1952 and 1977 were identified at age 17 yrs, using their unique personal ID number, in the RTP. All the individuals recorded as living in Sweden are included in these registers. Of the young males born in 1952–1959 and 1961–1977 who were thus identified, the 90.9% (1,239,705) who were recorded in the MSCR as having participated in the military service conscription examination at aged 17–20 yrs were included in the study population. Of the cohort born in 1960, only 14.6% (7,333) participated in a military service conscription examination due to administrative changes to the entire conscription system in Sweden. These subjects were added to the study population.

The Swedish military service conscription examination is required by law. Foreign citizenship or a severe chronic medical condition or handicap documented in a medical certificate are the only reasons that are accepted for nonparticipation according to Swedish law.

Variables in the study

Allergic disorders

The examination of the conscripts consisted of a health questionnaire, a personal interview by a medical doctor and a comprehensive physical and psychological examination that includes a physical exercise test. The health questionnaire is sent to the conscripts prior to the examination and contains specific questions about itchy or watery eyes, congested nose/allergic rhinitis, wheezing, asthma and eczema. The examining doctor makes a registration of diagnoses on a practical clinical basis, with the emphasis on conditions that may affect the young male's performance in the military service. The diagnostic codes were based on the International Classification of Diseases (ICD-8 and ICD-9) in 1968–1986: 493 (asthma) and 477 (allergic rhinitis). The diagnoses were set by the doctor after having seen the answers to the questionnaire and investigated the conscript. The diagnostic procedure has changed very little over the years, with the exception of the health questionnaire, which has been changed several times.

The diagnostic category of asthma was divided into two parts: asthma without allergic rhinitis (as a proxy to nonallergic asthma) and asthma with allergic rhinitis (as a proxy to allergic asthma).

Socio-economic status

SES was defined according to the categorisation of the head of the household in the PHC nearest to the military conscription examination made by Statistics Sweden 12. The categories were based on occupation but also took account of the educational level of occupation, the type of production and the position at work of the head of the household. Two different classifications were used during the study period, one in the PHCs from 1970 and 1975 and another in 1980, 1985 and 1990. These classifications only overlapped in the broad categories of white collar/blue collar, which forced the use of this limited dichotomous variable (high/low).

Socio-demographic confounders

A number of available variables that have been shown to be important determinants of allergic disorders in previous studies of Swedish conscripts 11–14 were added to the analysis as possible confounders.

Information from the PHC nearest in time to the military conscription and the geographical location of the home in the RTP for conscripts aged 17 yrs were used to create a dichotomous rural/urban variable. In the PHC, urban is defined as a home located in a settlement with ≥200 inhabitants. Parental occupation from the PHC nearest in time to the military conscription was used to create a dichotomous “farmer” variable. County of residence was identified in the RTP at aged 17 yrs and classified into six categories, one for southern Sweden and five for northern Sweden. Maternal age at the birth of the conscript was calculated using information relating to the year of birth of the mother and the conscript from the RTP. Variables of family size and overcrowding (defined as more than two people per room excluding the kitchen and one more room) were created using data from the PHC nearest to the conscription examination. A variable of being the first-born male in the family, as a proxy to first-born child in the absence of sisters, was created by linkage to the multi-generation register of the conscripts in the study.

Body mass index

Weight and height measurements at the military conscription examination were used to calculate body mass index (BMI). Four BMI categories were created according to WHO criteria 15: ≥30.00 (obese), 25.00–29.99 (overweight), 18.50–24.99 (reference) and ≤18.49 (low).

Statistical analyses

Asthma with allergic rhinitis, asthma without allergic rhinitis and allergic rhinitis were used as dependent variables in logistic regression models. These models included a dichotomous low/high SES variable, dichotomous confounders and a four-category BMI variable as defined above. Missing was included in the models as a third category for confounders and SES. Year of birth was entered as a continuous variable in all the models. Logistic regression models that contained all the variables described above were used to calculate the interaction of time (year of birth) with other independent variables. The test-based method was used to calculate 95% confidence intervals (CI).

Ethical considerations

The study was approved by the Ethics Committee at the Karolinska Institutet in Stockholm.

RESULTS

The study comprised 1,247,038 male conscripts. In all, 32.5% were classified as low SES, 40.2% as high SES, while 27.4% could not be classified. Additional socio-demographic characteristics have been presented in a previous paper 11.

The prevalence of asthma and allergic rhinitis increased continuously with year of birth during the entire study period. In conscripts born in 1952–1956, the prevalence rates for asthma without allergic rhinitis, asthma with allergic rhinitis and allergic rhinitis were 1.7%, 0.3% and 4.9%, respectively. The corresponding prevalence rates in conscripts born in 1972–1977 were 3.1%, 2.4% and 16.4% respectively. As a result, 15% of all asthma cases had allergic rhinitis in the earliest birth cohort compared with 44% in the most recent cohort.

Low SES was associated with an increased risk of asthma without allergic rhinitis (odds ratio (OR) 1.14; 95% CI 1.11–1.17), but a reduced risk of asthma with allergic rhinitis, (OR 0.96; 95% CI 0.93–1.00), and allergic rhinitis (OR 0.84; 95% CI 0.82–0.85), after multivariate analyses of the entire sample. However, the steepest increase in asthma and allergic rhinitis occurred in conscripts with a low SES (fig. 1⇓) and the ORs for asthma and allergic rhinitis changed over time (table 1⇓). The exclusion of overcrowding from the logistic model had marginal effects on the ORs for social class in cohorts born before 1962 and no effect at all in cohorts born after 1961. The multivariate analyses confirmed a positive interaction between low SES and year of birth in all three conditions (p<0.001; data not shown). The interaction effect was similar for the three decades in the study for all three conditions.

Fig. 1—
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Fig. 1—

Asthma and allergic rhinitis in Swedish male conscripts by year of birth and social class (-----: high socio-economic status; –––: low socio-economic status). a) Asthma without allergic rhinitis; b) asthma with allergic rhinitis; c) allergic rhinitis.

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Table. 1—

The association between social class, asthma and allergic rhinitis

DISCUSSION

The linkage of national registers in Sweden at an individual level has enabled the current authors to carry out this epidemiological study of >1.2 million conscripts in successive birth cohorts born between 1952 and 1977. A two-fold increase in asthma without allergic rhinitis and a three- to four-fold increase in allergic rhinitis and asthma associated with allergic rhinitis was found over a period of less than three decades. An increase in asthma and allergic rhinitis was demonstrated both in high and in low social class, but the steepest increase occurred in conscripts with low SES. Low social class was associated with an increased risk of asthma without allergic rhinitis in all birth cohorts, but it only contributed to an increased risk of asthma with allergic rhinitis in the most recent birth cohorts. A strong inverse relationship between low SES and allergic rhinitis was revealed in conscripts born in the 1950s. The association between low social class and allergic rhinitis decreased over time and the association was fairly weak in conscripts born after 1970.

The declining association between allergic rhinitis and social class in recent Swedish birth cohorts suggests that lifestyles promoting allergic diseases have been adopted in all social classes. No difference will be seen between cases and controls in a society in which all the individuals are exposed 16. The current authors cannot wholly exclude the possibility that differential misclassification with an increasing awareness of allergic diseases in lower social classes may contribute to the changes in time trends. However, the findings are consistent with those relating to British birth cohorts from 1958 and 1970, showing a more pronounced association between hay fever and social class in the early cohort 2.

The association between social class and asthma has been conflicting. An American study showed a positive association between increasing education level and asthma with hay fever but a negative association between education level and asthma without hay fever 17. Similarly, a recent British study revealed that social class had differential effects on atopic and nonatopic asthma 9. In contrast, poverty at both an individual and an area level was associated with an increased risk of asthma regardless of sensitisation in the large European Community Respiratory Health Survey comprising young adults from 15 countries 18. The current Swedish survey suggests that the role of SES in asthma has changed over time and such changes may explain the conflicting findings in other studies. The differences between asthma with allergic rhinitis and asthma without allergic rhinitis in relation to low SES tend to disappear in recent cohorts. A low SES implied a reduced risk of allergic asthma in the oldest birth cohorts but an increased risk in the youngest cohort. Moreover, the steepest increase in asthma with allergic rhinitis and asthma without allergic rhinitis has occurred in individuals from less advantaged social classes. This is in agreement with the high prevalence of allergic asthma 19 and sensitivity to inhalant allergens 20 in poor inner-city areas in the USA. A disproportionate increase in asthma in lower social classes has also been observed in British schoolchildren born after 1983 21. An ongoing Swedish birth cohort study recently demonstrated an increased risk of asthma and allergic sensitisation in children with low SES aged 4 yrs 22.

Housing standard has improved in Sweden since the 1950s, particularly in low social classes. Domestic crowding is closely associated with social class but adjustment for overcrowding had only marginal effects on the ORs for social class in the multivariate analyses. However, poor housing conditions also include, for example, psychosocial stress and increased exposure to dampness and mould, which may contribute to an increased risk of asthma in individuals with low SES.

Differences in food habits often explain socio-economic differences in health. Intake of fruit and unsaturated fat has been associated with an increased risk of atopy and asthma 23. Consumption of fruit is lower and consumption of saturated fat higher in individuals with low SES 24, 25. Obesity is linked both to asthma and to low SES 14 but the increased risk of asthma in conscripts with low SES in the current study persisted after adjustment for BMI.

A register-based study is limited by the array of variables available for statistical analyses. In this study, information on atopic heredity and exposure to tobacco smoke, for example, would have been most valuable. Genes and environment interact and smoking may contribute to the increased risk of asthma in conscripts with a low SES 26. Smoking is more likely in nonaffluent groups but smoking has been declining in Sweden since 1980, both in males and in females and in all social classes 27. However, reports from other countries in Western Europe indicate that the differences in smoking habits between the social classes have increased over time. Smoking in Norway was more common in males with a high income and less common in males with a low income in the 1950s. A switch-over occurred around 1975 and smoking was more common in low income males in 1990 but at a lower level in comparison with the 1950s 28.

The proportion of the Swedish population that is categorised as low SES has decreased over time, as manual jobs have been replaced by white-collar jobs on the Swedish labour market. This may have caused a steeper social gradient in recent years, which may explain some or all of the steeper time trend for low SES compared with high SES for nonatopic asthma. However, this is not the case for the atopic disorders, where the social gradient is reversed.

The ORs for social class in the current study are fairly low. There is less income inequality in Sweden and other Scandinavian countries than there is in the UK, for example 29. Moreover, changes in the classification of SES in the Swedish Population and Housing Censuses have restricted the classification of social class to blue- and white-collar workers in the current study. Even if the sensitivity and specificity of exposure and outcome variables in this register-based study may be lower than those in smaller studies based on data sets created ad hoc, the misclassification bias is nondifferential. It is therefore likely that the associations between social class and disease outcome are underestimated in the present study. The clear-cut associations between social class and asthma with and without allergic rhinitis seen in table 1⇑ may thus be underestimates of the true associations.

The current study has further limitations. In the statistical analyses, the current authors have distinguished between asthma with allergic rhinitis and asthma without allergic rhinitis. Asthma without allergic rhinitis does not exclude atopy, but asthma with and without allergic rhinitis could be used as a reasonably good proxy for allergic and nonallergic asthma. The diagnoses of asthma or allergic rhinitis were always made by a doctor and a previous validation suggested that the accuracy of the diagnosis at the conscript examination was fairly good. Approximately 80% of all cases of asthma and allergic rhinits were detected at the conscript examinations 12. Misclassification is likely to be nondifferential and reduce the associations. Over the years the questions related to allergic disorders in the health questionnaire became somewhat more specific. However, it does not seem probable that this affected the prevalence rates in any major way since the diagnosis was based primarily on follow-up questions made by physicians during the health examination.

To summarise, Sweden is a westernised country with a high standard of living. A substantial increase in the percentage of asthma cases associated with allergic rhinitis has occurred over a period of three decades. However, the role of social class has changed and the rate of the increasing prevalence of asthma and allergic rhinitis was more rapid in conscripts with a low socio-economic status.

  • Received February 25, 2005.
  • Accepted July 7, 2005.
  • © ERS Journals Ltd

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Social class in asthma and allergic rhinitis: a national cohort study over three decades
L. Bråbäck, A. Hjern, F. Rasmussen
European Respiratory Journal Dec 2005, 26 (6) 1064-1068; DOI: 10.1183/09031936.05.00022105

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Social class in asthma and allergic rhinitis: a national cohort study over three decades
L. Bråbäck, A. Hjern, F. Rasmussen
European Respiratory Journal Dec 2005, 26 (6) 1064-1068; DOI: 10.1183/09031936.05.00022105
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